JP3628223B2 - Multi display device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention includes a main image display body having a main image display section and a sub image display body provided on the main image display section so as to be openable and closable and having a sub image display section. The present invention relates to a multi-display device that can visually recognize an image.
[0002]
[Prior art]
Generally, for example, liquid crystal displays used in electronic devices such as personal computers have narrow screens. For example, when creating multi-item spreadsheets or creating long sentences, the entire image cannot be seen unless scrolling or image display is used. There are many unclear points, and there may be troubles such as being unable to grasp the whole if you do not print once, and there are drawbacks such as poor work efficiency and increased wasteful use of paper. In order to eliminate this problem, it has been proposed to provide a sub display device on the main image display body to obtain a multi-wide screen so that the entire created screen can be easily grasped at a glance and has a high work efficiency.
Conventionally, as this type of multi-display device, for example, one disclosed in Japanese Patent Application Laid-Open No. 5-265029 is known.
As shown in FIG. 14, the multi-display device is attached to an electronic device 1 such as a portable computer, a portable personal computer, or a portable word processor. The electronic device 1 is configured by providing a multi display device S in a device main body 2 which is integrally provided with a keyboard 3 and has a CPU and the like.
The multi-display device S includes a main image display body 10 having a main image display portion 11 that is erected on the device main body 2 and includes a liquid crystal panel that displays an image, and a liquid crystal panel that displays an image. A sub-image that is surrounded by a sub-frame portion 22 and that can be opened and closed to the left and right of the main image display body 10 and that can be viewed by opening the main image display portion 11 and the sub-image display portion 21 when opened. The display body 20 is provided.
Each sub-image display body 20 is formed in a plate shape having a sub-image display section 21 and a sub-frame section 22 that are substantially the same size as the main image display section 11 and the main frame section 12 of the main image display body 10. .
[0003]
One sub-image display 20 is placed on the main frame 12 of the main image display 10 so that the sub-image display 21 faces the main image display 11 of the main image display 10 when closed. It is provided via a plurality of hinge-type hinge mechanisms 5 (A) (three in the figure) having one pivot.
Further, the other sub-image display body 20 has an edge of the main frame portion 12 of the main image display body 10 so that the sub-image display section 21 faces the back surface of the one sub-image display body 20 when closed. Are provided through a plurality of hinge-type hinge mechanisms 5 (B) (three in the figure) provided with one pivot on the projecting portion 6 projecting at a right angle.
Then, when the sub image display body 20 is opened, an image is displayed on the main image display unit 11 and the sub image display unit 21, and one image is displayed wide on the main image display unit 11 and the sub image display unit 21. The sub-image display unit 21 can display different information from the display information of the main image display unit 11 to increase the degree of freedom of display.
[0004]
[Problems to be solved by the invention]
By the way, in this conventional multi-display device, the main image display body 10 and the sub image display body 20 are opened and closed by a hinge-type hinge mechanism 5 having one pivot. The frame portion 12 and the sub-frame portion 22 are continuously exposed. For this reason, a non-video portion E is greatly interposed between the main image display portion 11 and the sub-image display portion 21, and the continuity of the video There was a problem of being bad. In particular, when one image is enlarged and displayed on the main image display unit 11 and the sub image display unit 21, the influence becomes large.
The present invention has been made in view of the above problems, and when the main image display body and the sub image display body are opened, the frame portion between the main image display section and the sub-image display section is as wide as possible. It is an object of the present invention to provide a multi-display device that can be exposed with a small size and improve the continuity of video between the main image display unit and the sub-image display unit as much as possible.
[0005]
[Means for Solving the Problems]
In order to solve such problems, the present invention surrounds a main image display body having a main image display section for displaying an image surrounded by a main frame section, and a sub image display section for displaying an image by the subframe section. In a multi-display apparatus comprising a sub-image display body that can be opened and closed with respect to the main image display body and that can be viewed by opening the main image display section and the sub-image display section when opened, the sub-image display body The main frame so that the main frame portion of the main image display body and the sub-frame portion of the sub image display body overlap when viewed from a direction orthogonal to the surface of the main image display portion of the main image display body when opened. The main image display body and the sub image display body can be opened and closed by the hinge mechanism.
According to this, first, when the main image display body and the sub image display body are not used, the sub image display body is closed.
Next, when using the main image display body and the sub image display body, the sub image display body is opened. Then, the main frame portion of the main image display body and the sub-frame portion of the sub image display body are overlapped when viewed from a direction orthogonal to the surface of the main image display portion of the main image display body by the hinge mechanism. .
In this state, an image is displayed on the main image display unit of the main image display body and the sub image display unit of the sub image display body, and one image is displayed wide on the main image display unit and the sub image display unit. For example, different information different from the display information of the main image display unit is displayed on the sub image display unit. In this case, since the main frame portion of the main image display body and the sub frame portion of the sub image display body are overlapped, the non-video portion between the main image display portion and the sub image display portion is compared with the conventional case. Therefore, the continuity of video between the main image display unit and the sub-image display unit is improved, and the image is easy to see.
[0006]
MaThe topThe hinge mechanism includes a connecting piece having one side pivotally supported by the main frame portion of the main image display body and the other side pivotally supported by the subframe portion of the sub image display body. The main frame portion of the main image display body and the sub-frame portion of the sub image display body are easily overlapped by the rotation of the connecting piece, so that the angle adjustment of the sub image display body with respect to the main image display body is facilitated.
FurtherOnThe hinge mechanism is formed in the main frame portion of the main image display body with a main concave portion in which one side portion of the connecting piece is loosely inserted, and one side portion of the connecting piece is loosely inserted in the main concave portion. A sub-recess is formed in the sub-frame portion of the sub-image display body corresponding to the main recess, and the other side of the connecting piece is loosely inserted, and the other side of the connecting piece is loosely inserted into the sub-recess. It is configured with a shaft. The connecting piece can be rotated within the range while superimposing the main frame portion and the sub-frame portion, and the non-video portion between the main image display portion and the sub-image display portion can be further reduced.
[0007]
If necessary, a first shaft body is provided at one of the end of the main recess of the main image display and the end of one side of the connecting piece, and the end of the main recess of the main image display And the other end of one side of the connecting piece is provided with a first bearing hole on which the first shaft body is pivotally supported, and the end of the secondary recess of the sub-image display body and the other side of the connecting piece A second shaft body is provided at either one of the end portions of the first portion, and the second shaft body is pivotally supported at either the other end portion of the slave recess portion of the sub-image display body or the other end portion of the connecting piece. The second bearing hole is provided.
Further, if necessary, a first shaft body is provided at both ends of the main recess of the main image display body, and a first bearing hole through which the first shaft body is inserted is provided at one side portion of the connecting piece. The second shaft body is constructed at both ends of the sub-recess of the sub-image display body, and the second bearing hole through which the second shaft body is inserted is provided at the other side of the connecting piece.
[0008]
Moreover, in this invention, it is set as the structure formed in the inclined surface by chamfering the edge which opposes the side surface of the said connection piece of at least any one of the said main recessed part and a secondary recessed part. Since the connecting piece can be rotated more by the inclination, the overlapping range of the main frame portion of the main image display body and the sub frame portion of the sub image display body can be reduced, and the main image display portion and the sub image The display unit can be made even closer, and the continuity of video between the main image display unit and the sub-image display unit can be improved.
Furthermore, in the present invention,The side surface of the connecting piece is formed as an inclined surface that is inclined so that the thickness of the connecting piece on the sub-recess side is smaller than the thickness of the connecting piece on the main recessed portion side.It is configured. Since the connecting piece can be rotated more by the inclination, the overlapping range of the main frame portion of the main image display body and the sub frame portion of the sub image display body can be reduced, and the main image display portion and the sub image The display unit can be made even closer, and the continuity of video between the main image display unit and the sub-image display unit can be improved.
[0009]
Furthermore, if necessary, the connecting piece is provided with a cable for electrically connecting the main image display body and the sub image display body. In this case, since the cable is covered with the connecting piece, the wiring is not exposed to the outside, and the cable becomes compact so that the appearance quality is good.
Further, if necessary, a cable for electrically connecting the main image display body and the sub image display body is provided on the connecting piece, and the cable is arranged through the shaft body. Since the cable is covered with the connecting piece, the wiring is not exposed to the outside, the size is reduced, the appearance quality is improved, and the cable is provided through the shaft body, so that the assembly is facilitated.
[0010]
Further, if necessary, a plurality of the hinge mechanisms are provided between the adjacent main image display body and sub image display body. Support is ensured.
Further, if necessary, the hinge mechanism is arranged so that the sub-image display portion of the sub-image display body is positioned to face the main image display portion of the main image display body when the sub-image display body is closed. It is composed.
Furthermore, a plurality of sub-image display bodies are provided on the main image display body as necessary.
Further, if necessary, a pair of sub-image display bodies having a plate-like sub-image display body having a sub-image display section and a sub-frame section having a size substantially divided into the main image display section and the main frame section of the main image display body are provided. The hinges are provided on the left and right sides of the main image display body, respectively, so that when the pair of sub image display bodies are closed, the sub image display sections of both sub image display bodies face the main image display section of the main image display body. The mechanism is configured. When the main image display body and the sub image display body are closed, the main body is compact and the appearance quality is good.
Further, if necessary, a pair of plate-like sub-image display bodies having a sub-image display section and a sub-frame section that are substantially the same size as the main image display section and main frame section of the main image display body are replaced with the main image. Provided respectively on the left and right of the display body, when the pair of sub image display bodies are closed, the sub image display section of one sub image display body faces the main image display section of the main image display body and the other sub image display The hinge mechanism is configured so that the sub image display unit of the body faces the back surface of one of the sub image display bodies. When the main image display body and the sub image display body are closed, the main body is compact and the appearance quality is good.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a multi-display device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In addition, the same code | symbol is attached | subjected and demonstrated to the same thing as the above.
As shown in FIGS. 1 to 6, the multi-display device S according to the embodiment of the present invention includes a base 8 and a main image display unit 11 that is provided on the base 8 and includes a liquid crystal panel that displays an image. The main image display body 10 surrounded by the main frame portion 12 and the sub image display portion 21 composed of a liquid crystal panel for displaying an image are surrounded by the sub frame portion 22 and opened and closed to the left and right of the main image display body 10. The main image display unit 11 and the sub-image display unit 21 can be opened and can be visually recognized when opened.
Each sub-image display body 20 is formed in a plate shape having a sub-image display section 21 and a sub-frame section 22 that are substantially the same size as the main image display section 11 and the main frame section 12 of the main image display body 10. .
One sub-image display 20 is placed on the main frame 12 of the main image display 10 so that the sub-image display 21 faces the main image display 11 of the main image display 10 when closed. A hinge mechanism 30 is provided.
The other sub-image display 20 is similar to the main frame 12 of the main image display 10 so that the sub-image display 21 faces the back of the one sub-image display 20 when closed. A hinge mechanism 30 is provided.
[0012]
When the sub image display body 20 is opened, the hinge mechanism 30 is viewed from a direction orthogonal to the surface of the main image display section 11 of the main image display body 10 and the main frame portion 12 of the main image display body 10 and the sub image display body 20. The main frame portion 12 and the sub-frame portion 22 are connected so that the sub-frame portion 22 overlaps. The hinge mechanism 30 enables the main image display body 10 and the sub image display body 20 to be opened and closed.
Specifically, as shown in FIGS. 2, 5, and 6, the hinge mechanism 30 has one side portion 31 a that is pivotally supported by the main frame portion 12 of the main image display body 10 and the other side portion 31 b that is the sub image display body 20. The connecting piece 31 is formed of an insulating member such as a resin that is pivotally supported by the secondary frame portion 22. Further, the hinge mechanism 30 forms a main recess 15 in which the one side portion 31 a of the connection piece 31 is loosely inserted in the main frame portion 12 of the main image display body 10, and the one side portion 31 a of the connection piece 31 becomes the main recess 15. The side part 31a is loosely inserted to support the side part 31a, and the secondary frame part 22 of the sub-image display body 20 is formed with a secondary concave part 25 corresponding to the primary concave part 15 into which the other side part 31b of the coupling piece 31 is loosely inserted. The other side 31b of the connecting piece 31 is loosely inserted into the sub-recess 25 and is pivotally supported.
[0013]
As shown in FIGS. 2, 5, and 6, either one of the end of the main recess 15 of the main image display 10 and the end of one side 31 a of the connection piece 31 (in the embodiment, the connection piece). The first shaft body 32 is provided at both end portions of the one side portion 31a of the 31 and the other end of the main concave portion 15 of the main image display body 10 and the end portion of the one side portion 31a of the connecting piece 31 (implementation). In the embodiment, first bearing holes 33 on which the first shaft body 32 is pivotally supported are provided at both ends of the main concave portion 15 of the main image display body 10, and the end portion of the sub concave portion 25 of the sub image display body 20 and the connecting piece. The second shaft body 34 is provided at either one of the end portions of the other side portion 31b of the 31 (in the embodiment, both end portions of the other side portion 31b of the connecting piece 31), and the end of the sub-recess portion 25 of the sub-image display body 20 is provided. Or the other end of the connecting piece 31 (the sub image table in the embodiment) It is provided a second bearing hole 35 at both ends of the 従凹 portion 25) of the body 20.
The upper first shaft body 32 and second shaft body 34 are formed of separate pipe-shaped members. On the other hand, the lower first shaft body 32 and the second shaft body 34 are provided so as to protrude in a conical shape integrally with the connecting piece 31.
Further, the first shaft body 32 and the first bearing hole 33, and the second shaft body 34 and the second bearing hole 35 are frictionally connected so that the shaft bodies 32 and 34 can be stopped at an appropriate rotation angle, respectively. In contact.
[0014]
As shown in FIGS. 2 and 5, at least one of the main recess 15 and the secondary recess 25 (both the main recess 15 and the secondary recess 25 in the embodiment) is an edge facing the side surface of the connecting piece 31. Is chamfered to form an inclined surface. Specifically, the front edge 16 of the main recess 15 is formed on a flat inclined surface, and the rear edge 17 of the main recess 15 is formed on an arc-shaped inclined surface. Further, an end edge 27 on the back side of the sub-recess portion 25 is formed on a flat inclined surface, and an end edge 26 on the front side of the sub-recess portion 25 is formed on an arc-shaped inclined surface.
Further, both side surfaces 36 of the connecting piece 31 are formed as inclined surfaces that are inclined downward from the first shaft body 32 toward the second shaft body 34.Specifically, as shown in FIG. 5, the side surface 36 of the connecting piece 31 is inclined so that the thickness Db of the connecting piece 31 on the secondary recessed portion 25 side is smaller than the thickness Da of the connecting piece 31 on the main recessed portion 15 side. It is formed on the inclined surface.Thereby, the connection piece 31 is formed in the cross-sectional oval shape.
The edges 16 and 17 of the main recess 15 and the edges 26 and 27 of the slave recess 25 also function as stopper surfaces for stopping the rotation of both side surfaces 36 of the connecting piece 31. By appropriately determining the inclination angles of the edges 26 and 27 and the both side surfaces 36 of the connecting piece 31, the rotation angle range of the sub-image display body 20 is set.
[0015]
Further, as shown in FIG. 6, a cable 40 for electrically connecting the main image display body 10 and the sub image display body 20 to the connecting piece 31 is disposed through shaft bodies 32 and 34. The cable 40 communicates with the pipe-shaped upper first shaft body 32, the connecting piece 31, and the second shaft body 34, and contacts the wiring cord 41 provided in the main frame portion 12 and the subframe portion 22 to be electrically connected. It is connected to the.
Further, the pitch between the left and right connecting pieces 31 (the distance between the first shaft body 32 and the second shaft body 34) is determined by the sub-image display section 21 of the sub-image display body 20 when the sub-image display body 20 is closed. It is determined so as to be opposed to the main image display unit 11 of the main image display body 10. Specifically, when the pair of left and right sub-image display bodies 20 are closed, the sub-image display section 21 of one sub-image display body 20 faces the main image display section 11 of the main image display body 10 and the other sub-image display is displayed. The inter-axis pitches of the left and right connecting pieces 31 are determined so that the sub-image display unit 21 of the body 20 faces the back surface of the one sub-image display body 20. In other words, the inter-axis pitch of the connecting pieces 31 of the other sub-image display body 20 is larger than the inter-axis pitch of the connecting pieces 31 of the one sub-image display body 20 corresponding to the thickness of the one sub-image display body 20. Is set.
[0016]
Therefore, the multi display device S according to this embodiment operates as follows. The multi-display device S is used by being connected to a portable computer (not shown), for example.
First, when the main image display body 10 and the sub image display body 20 are not used, the sub image display body 20 is closed as shown in FIGS. In this case, the sub image display unit 21 of one of the sub image display bodies 20 faces the main image display unit 11 of the main image display body 10, and the sub image display unit 21 of the other sub image display body 20 is one of the sub image display units 20. It faces the back surface of the sub image display body 20 and is folded compactly. Further, since the connecting piece 31 is provided with the cable 40 for electrically interconnecting the main image display body 10 and the sub image display body 20, the wiring is not exposed, and this point is also compact. Appearance quality will be good. Moreover, since the cable 40 is arrange | positioned through the shaft, assembly | attachment becomes easy.
[0017]
Next, when the main image display body 10 and the sub image display body 20 are used in the multi display device S according to this embodiment, the sub image display body 20 is opened as shown in FIGS. Then, as shown in FIG. 2, one side surface 36 of the connection piece 31 is brought into contact with the inclined surface (edge 16) on the front side of the main recess 15, and the other side surface of the connection piece 31 is connected to the back surface of the sub-recess 25. The main frame portion 12 of the main image display body 10 and the sub image display when viewed from a direction orthogonal to the surface of the main image display portion 11 of the main image display body 10. The secondary frame portion 22 of the body 20 is overlapped.
In this state, an image is displayed on the main image display unit 11 of the main image display body 10 and the sub-image display unit 21 of the sub-image display body 20, and one image is widely displayed on the main image display unit 11 and the sub-image display unit 21. The sub-image display unit 21 displays other information different from the display information of the main image display unit 11. In this case, since the connecting piece 31 is provided with the cable 40 for electrically connecting the main image display body 10 and the sub image display body 20, information is transmitted via the cable 40. When images are displayed on the main image display unit 11 and the sub image display unit 21, the screen becomes wide in the horizontal direction, and the degree of freedom of display increases. For example, in the case of multi-item spreadsheets and software creation, the whole can be seen at a glance, the relationship between each item can be recognized accurately, the work efficiency is improved, and there is no need to perform trial printing as before, There is no waste of paper.
In this case, since the main frame portion 12 of the main image display body 10 and the sub-frame portion 22 of the sub-image display body 20 are overlapped, it is not a video between the main image display portion 11 and the sub-image display portion 21. The portion E is smaller than that of the prior art, so that the continuity of the video between the main image display unit 11 and the sub image display unit 21 is improved, and the image is easy to see. In particular, when one image is enlarged and displayed on the main image display unit 11 and the sub-image display unit 21, there is a sense of continuity of the image and it is easy to see.
[0018]
Further, since the hinge mechanism 30 includes the connecting piece 31, the angle of the sub image display body 20 with respect to the main image display body 10 can be freely adjusted, and the main frame portion 12 of the main image display body 10 and the sub image can be adjusted. Superimposition with the subframe portion 22 of the display body 20 is easily performed.
Further, since the connecting piece 31 is loosely inserted into the main recess 15 and the sub recess 25, the connecting piece 31 rotates within the overlapping range of the main frame portion 12 of the main image display body 10 and the sub frame portion 22 of the sub image display body 20. The portion E which is not a video between the main image display unit 11 and the sub image display unit 21 can be further reduced.
Furthermore, since the edges of the main recess 15 and the secondary recess 25 that face the side surfaces of the connecting piece 31 are chamfered and formed on an inclined surface, the main frame portion 12 of the main image display body 10 is inclined. And the secondary frame portion 22 of the sub-image display body 20 can be reduced, the main image display portion 11 and the secondary image display portion 21 can be brought closer to each other, and the primary image display portion 11 and the secondary image display are displayed. The continuity of video with the unit 21 is improved.
Also,As shown in FIG. 5, the side surface 36 of the connecting piece 31 is inclined so that the thickness Db of the connecting piece 31 on the secondary recessed portion 25 side is smaller than the thickness Da of the connecting piece 31 on the main recessed portion 15 side. Because it is formed inThe overlapping range of the main frame portion 12 of the main image display body 10 and the sub frame portion 22 of the sub image display body 20 can be reduced by the tilt, and in this respect also, the main image display portion 11 and the sub image display are displayed. The part 21 can be brought closer, and the continuity of video between the main image display part 11 and the sub-image display part 21 can be improved.
[0019]
7 and 8 show a multi-display device S according to another embodiment. This is attached to a portable electronic device 1 such as a portable personal computer or a portable word processor. The electronic apparatus 1 includes a device main body 2 that is integrally provided with a keyboard 3 and is equipped with a CPU and the like. The multi-display device S according to the embodiment is provided in the device main body 2 so as to be openable and closable.
The multi display device S according to this embodiment is configured in substantially the same manner as the multi display device S described above, and includes a main image display body 10 and a pair of sub image display bodies 20 provided on the left and right sides of the main image display body 10. It is prepared for. The main image display body 10 is rotatably provided at the rear end edge of the apparatus main body 2 via a uniaxial hinge 50. The difference from the above is that a pair of hinge mechanisms 30 are provided for each sub-image display body 20. The operation and effect of the multi-display device S are the same as described above.
[0020]
In FIG.Moreover, the multi-display device S according to another embodiment is shown. This is attached to portable electronic devices such as portable personal computers and portable word processors. The electronic apparatus 1 includes a device main body 2 that is integrally provided with a keyboard 3 and is equipped with a CPU and the like. The multi-display device S according to the embodiment is provided in the device main body 2 so as to be openable and closable.
The multi-display device S according to this embodiment is configured in substantially the same manner as the multi-display device S described above. However, unlike the above, the main image display unit 11 and the main frame unit 12 of the main image display body 10 are substantially omitted. A pair of plate-like sub-image display bodies 20 having a sub-image display section 21 and a sub-frame section 22 that are divided into two parts are provided on the left and right sides of the main image display body 10, respectively, and the pair of sub-image display bodies 20 are closed. The hinge mechanism 30 is configured so that the sub-image display unit 21 of both sub-image display bodies 20 sometimes faces the main image display unit 11 of the main image display body 10. The main image display body 10 is rotatably provided at the rear end edge of the apparatus main body 2 via a uniaxial hinge 50.
FIG. 10 shows an example in which the hinge mechanism 30 proposed in the development process of the present invention is applied to the multi-display device according to still another embodiment of the present invention shown in FIG.A pair of hinge mechanisms 30 is provided for each sub-image display body 20. Furthermore, in the hinge mechanism 30, the connecting piece 31 has both side surfaces 36 parallel to each other and is formed in an oval cross section. This multi-display device S also has substantially the same functions and effects as described above.
[0021]
FIG. 11 shows a multi-display device S according to still another embodiment. This is attached to a portable electronic device 1 such as a portable personal computer or a portable word processor. The electronic apparatus 1 includes a device main body 2 that is integrally provided with a keyboard 3 and is equipped with a CPU and the like. The multi-display device S according to the embodiment is provided in the device main body 2 so as to be openable and closable.
Unlike the multi-display device S described above, the multi-display device S according to this embodiment is a sub-image display unit 21 and a sub-image display unit 21 having substantially the same size as the main image display unit 11 and the main frame unit 12 of the main image display body 10. One plate-like sub-image display body 20 having a sub-frame portion 22 is provided at the upper edge of the main image display body 10, and the sub-image display portion 21 of the sub-image display body 20 is main when the sub-image display body 20 is closed. A hinge mechanism 30 is provided so as to face the main image display unit 11 of the image display body 10. A pair of hinge mechanisms 30 are provided on the sub-image display body 20. The main image display body 10 is rotatably provided on the rear end edge of the apparatus main body 2 via a uniaxial hinge 50. The operation and effect of the multi display device S are substantially the same as described above.
[0022]
FIG. 12 shows a modification of the hinge mechanism 30 of the multi-display device S. FIG. 12 shows a case where this modification is applied to the multi-display device S of the type shown in FIG.The
In the multi-display device S shown in FIG. 12A, the connecting piece 31 is formed in an oval cross section, and the edges of the main recess 15 and the secondary recess 25 are chamfered in an arc shape. The front edges 16 and 17 on the front side and the back side are formed in an arcuate inclined surface, and the rear edges 26 and 27 on the back side and the front side of the sub-recess portion 25 are formed in an arcuate inclined surface. The image display body 20 is rotatable with respect to the main image display body 10 within a range of about 360 °.Of course, the present invention may be applied to the multi-display device S shown in FIG. 1, FIG. 7 or FIG.
In the multi-display device S shown in FIG. 12B, the hinge mechanism 30 has been proposed in the development process of the present invention.The connecting piece 31 is formed in an oval shape, and the edges of the main recess 15 and the secondary recess 25 are chamfered in an arc shape, that is, the front edges 16 and 17 of the main recess 15 are arc-shaped. Formed on an inclined surface, the rear and front edges 26 and 27 of the sub-recess portion 25 are formed in an arcuate inclined surface, whereby the sub-image display body 20 is moved forward and backward with respect to the main image display body 10. It can be rotated in the range of 360 °.
In the multi-display device S shown in FIG. 12 (c), the hinge mechanism 30 is proposed in the development process of the present invention.The connecting piece 31 is formed in a cross-sectional plate shape, and only the edges 16 and 26 on the front side of the main recess 15 and the front side of the sub-recess 25 are formed in an arcuate inclined surface, and the entire end edge is formed in a cross-sectional half plate. It is formed in a bowl shape so that the sub-image display body 20 can be rotated with respect to the main image display body 10 in the range of about 180 ° in the front-rear direction.
[0023]
FIG. 13 shows a modification of the hinge mechanism 30 of the multi-display device S.
In the hinge mechanism 30 shown in FIG. 13A, the first shaft body 32 protrudes from both end portions of the one side portion 31 a of the connecting piece 31, and the first end portions of the main recessed portion 15 of the main image display body 10 are first. In addition to providing the first bearing hole 33 on which the shaft body 32 is pivotally supported, the second shaft body 34 is provided at both end portions of the other side portion 31b of the connecting piece 31, and at both end portions of the sub-recess portion 25 of the sub-image display body 20. A second bearing hole 35 is provided.
A cable 40 provided on the connecting piece 31 and electrically interconnecting the main image display body 10 and the sub image display body 20 is communicated with the upper and lower first shaft bodies 32 and the second shaft body 34, and is connected to the main frame. The wiring cord 41 provided in the portion 12 and the subframe portion 22 is in contact with and electrically connected.
In the hinge mechanism 30 shown in FIG. 13B, a pipe-shaped first shaft body 32 protrudes from the upper end portion of the one side portion 31 a of the connecting piece 31, and the lower end portion of the main concave portion 15 of the main image display body 10. A first shaft body 32 that is integral with the main frame portion 12 protrudes from the upper end portion of the main concave portion 15 of the main image display body 10 and the lower end portion of the one side portion 31 a of the connecting piece 31. The first bearing hole 33 to be supported is provided, and on the other hand, a pipe-shaped second shaft body 34 is projected from the upper end portion of the other side portion 31 b of the connecting piece 31, and the lower end portion of the sub-recess portion 25 of the sub image display body 20. A second shaft body 34 that is integral with the subframe portion 22 protrudes from the upper end portion of the sub recess portion 25 of the sub image display body 20 and the lower end portion of the other side portion 31b of the connecting piece 31. A second bearing hole 35 to be supported is provided.
A cable 40 provided on the connecting piece 31 and electrically connecting the main image display body 10 and the sub image display body 20 to each other is communicated with the upper first shaft body 32 and the second shaft body 34 and is connected to the main frame. The wiring cord 41 provided in the portion 12 and the subframe portion 22 is in contact with and electrically connected.
In the hinge mechanism 30 shown in FIG. 13 (c), the first shaft body 32 is constructed on both ends of the main recess 15 of the main image display body 10, and the first shaft body 32 is mounted on one side portion 31 a of the connecting piece 31. The first bearing hole 33 to be inserted is provided, the second shaft body 34 is installed at both ends of the sub-recessed portion 25 of the sub image display body 20, and the second shaft body 34 is inserted into the other side portion 31 b of the connecting piece 31. The second bearing hole 35 is provided.
[0024]
In the above embodiment, at least one of the main frame portion 12 of the main image display body 10 and the subframe portion 22 of the sub image display body 20 is formed in an L-shaped cross section to provide a protrusion, and the protrusion The hinge mechanism 30 may be provided on the door, or may be changed as appropriate.
The shaft bodies 32 and 34 may be formed in an appropriate shape such as a columnar shape or a conical shape.Yes.
Furthermore, the image display units 11 and 21 of the image display bodies 10 and 20 are not limited to the liquid crystal type, and may be various displays such as plasma and EL.
Of course, the multi-display device of the present invention may be attached to various electronic devices other than the electronic devices described above.
[0025]
【The invention's effect】
As described above, according to the multi-display device of the present invention, the main image display body when viewed from the direction orthogonal to the surface of the main image display portion of the main image display body when the sub image display body is opened by the hinge mechanism. Since the main frame portion and the sub-frame display portion of the sub-image display body are overlapped, the non-video portion between the main image display portion and the sub-image display portion can be made smaller than before. Therefore, it is possible to improve the continuity of the video between the main image display unit and the sub-image display unit and make the image easy to see. In particular, when one image is enlarged and displayed on the main image display unit and the sub image display unit, there is a sense of continuity of the image, which is effective.
The hinge mechanism includes a connecting piece having one side portion pivotally supported by the main frame portion of the main image display body and the other side portion pivotally supported by the subframe portion of the sub image display body.BecauseThe main frame portion of the main image display body and the secondary frame portion of the sub image display body can be easily overlapped by rotating the connecting piece, and the angle adjustment of the sub image display body with respect to the main image display body is facilitated. .
Further, the hinge mechanism is pivotally supported by forming a main concave portion in the main frame portion of the main image display body, forming a concave portion in accordance with the sub frame portion of the sub image display body, and loosely inserting the connecting piece into the main concave portion and the sub concave portion.BecauseThe sub image display body can be rotated within the overlapping range of the main frame portion of the main image display body and the sub frame portion of the sub image display body, and further between the main image display portion and the sub image display portion. The non-image area can be made smaller.
[0026]
Further, since the edge facing the side surface of at least one of the main concave portion and the secondary concave portion is chamfered to form an inclined surface, the main frame portion of the main image display body and the sub image display are formed by the amount of inclination. The overlapping range of the body with the secondary frame portion can be reduced, the main image display unit and the secondary image display unit can be brought closer, and the continuity of video between the main image display unit and the secondary image display unit Can be improved.
Furthermore,Since the side surface of the connecting piece is formed on the inclined surface so that the thickness of the sub-recess side of the connecting piece is smaller than the thickness of the main recessed portion side of the connecting piece,The overlapping range between the main frame portion of the main image display body and the sub-frame display portion of the sub-image display body can be reduced by the inclination, and in this respect also, the main image display portion and the sub-image display portion are made closer. It is possible to improve the continuity of the video between the main image display unit and the sub image display unit.
[0027]
Also, when the connecting piece is provided with a cable for electrically interconnecting the main image display body and the sub image display body, the cable is covered with the connecting piece, so that the wiring is not exposed to the outside. It becomes compact and the appearance quality is good.
Further, when the cable is disposed through the shaft body, the assembly is facilitated.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a multi-display device according to an embodiment of the present invention in an open state of a sub-image display body.
FIG. 2 is a cross-sectional view showing the multi-display device according to the embodiment of the present invention in the open state of the sub-image display body.
FIG. 3 is a perspective view showing the multi-display device according to the embodiment of the present invention in a closed state of the sub-image display body.
FIG. 4 is a cross-sectional view showing the multi-display device according to the embodiment of the present invention in a closed state of the sub-image display body.
FIG. 5 is a partial perspective view showing a hinge mechanism of the multi-display device according to the embodiment of the present invention.
FIG. 6 is a partial cross-sectional view showing a hinge mechanism of the multi-display device according to the embodiment of the present invention.
FIG. 7 is a perspective view showing a multi-display device according to another embodiment of the present invention in an open state of a sub-image display body together with an electronic device in which the multi-display device is used.
8 shows a multi-display device according to another embodiment of the present invention shown in FIG. 7, wherein (a) is a cross-sectional view showing a sub image display body in an open state, and (b) is a sub image together with an electronic device. The front view shown in the closed state of a display body, (c) is a cross-sectional view shown in the closed state of a sub-image display body.
FIG. 9 is a perspective view showing a multi-display device according to still another embodiment of the present invention in an open state of a sub-image display body together with an electronic device in which the multi-display device is used.
10 is a multi-display device according to still another embodiment of the present invention shown in FIG.Shows an example of applying the hinge mechanism proposed in the development process of the present invention,(A) is a cross-sectional view showing the sub image display body in the open state, (b) is a front view showing the electronic device with the sub image display body in the closed state, and (c) is a cross section showing in the closed state of the sub image display body. FIG.
FIG. 11 is a perspective view showing a multi-display device according to still another embodiment of the present invention in an open state of a sub-image display body together with an electronic device in which the multi-display device is used.
FIG.FIG. 9 shows an example in which a modification of the hinge mechanism portion is applied to the multi-display apparatus according to another embodiment of the present invention shown in FIG. 9, and (a) is a cross section showing an example in which the modification according to the embodiment is applied. Plans (b) and (c) are cross-sectional views showing an example to which a modification proposed in the development process of the present invention is applied.
FIG. 13 is a cross-sectional view showing modified examples (a), (b), and (c) of the hinge mechanism of the multi-display device according to the embodiment of the present invention.
FIG. 14 is a perspective view showing an example of a conventional multi-display device in an open state of a sub-image display body.
[Explanation of symbols]
S Multi-display device
1 Electronic equipment
2 Main unit
8 bases
10 Main image display
11 Main image display
12 Main frame
15 Main recess
16 Front edge (inclined surface)
17 Back edge (inclined surface)
20 Sub-image display
21 Secondary image display section
22 Secondary frame
25 Secondary recess
26 Front edge (inclined surface)
27 Rear edge (slope)
30 Hinge mechanism
31a One side
31b The other side
31 connection piece
32 1st shaft body
33 First bearing hole
34 Second shaft body
35 Second bearing hole
36 sides
40 cables
41 Wiring cord
50 Hinge part

Claims (10)

A main image display body having a main image display portion for displaying an image surrounded by a main frame portion, and a sub image display portion for displaying an image being surrounded by the sub frame portion, which can be opened and closed to the main image display body. And a multi-display device comprising a sub-image display body that can be viewed by opening the main image display section and the sub-image display section when opened,
When viewed from the direction orthogonal to the surface of the main image display portion of the main image display body when the sub image display body is opened, the main frame portion of the main image display body and the subframe portion of the sub image display body are superimposed. A hinge mechanism that connects the main frame portion and the sub-frame portion so that the main image display body and the sub image display body can be opened and closed by the hinge mechanism,
The hinge mechanism comprises a connecting piece whose one side is pivotally supported by the main frame portion of the main image display body and whose other side is pivotally supported by the subframe portion of the sub image display body,
The hinge mechanism is formed in the main frame portion of the main image display body with a main recess in which one side portion of the connection piece is loosely inserted, and one side portion of the connection piece is loosely inserted in the main recess portion, and the one side portion is A sub-recess is formed in the sub-frame portion of the sub-image display body corresponding to the main recess, and the other side of the connecting piece is loosely inserted, and the other side of the connecting piece is loosely inserted into the sub-recess. And support
Chamfering an edge facing the side surface of the connecting piece of at least one of the main recess and the secondary recess to form an inclined surface;
A multi-display device characterized in that the side surface of the connecting piece is formed on an inclined surface that is inclined so that the thickness of the connecting piece on the sub-recess side is smaller than the thickness of the connecting piece on the main recessed portion side . A first shaft is provided at one of an end of the main recess of the main image display and an end of one side of the connection piece, and an end of the main recess of the main image display and one side of the connection piece A first bearing hole on which the first shaft body is pivotally supported is provided at either one of the end portions of the first portion, and one of the end portion of the sub-recess portion of the sub-image display body and the other end portion of the connecting piece. A second bearing hole in which the second shaft body is provided on either one of the end of the slave recess of the sub-image display body and the end of the other side of the connecting piece; The multi-display device according to claim 1, further comprising: A first shaft body is constructed at both ends of the main recess of the main image display body, a first bearing hole through which the first shaft body is inserted is provided at one side portion of the connecting piece, and the sub image display body 2. The multi-display device according to claim 1 , wherein a second shaft body is provided at both ends of the sub-recess, and a second bearing hole through which the second shaft body is inserted is provided on the other side portion of the connecting piece. 4. The multi display device according to claim 1, wherein a cable for electrically connecting the main image display body and the sub image display body is provided on the connecting piece. In the connecting piece, a cable for electrically interconnecting said main image display and the sub image display provided, according to claim 1, 2, 3 or the cable, characterized in that disposed through the shaft body 4. The multi-display device according to 4 . 6. The multi-display device according to claim 1 , wherein a plurality of said hinge mechanisms are provided between adjacent main image display bodies and sub-image display bodies. The hinge mechanism is configured so that the sub-image display portion of the sub-image display body is positioned to face the main image display portion of the main image display body when the sub-image display body is closed. The multi-display device according to claim 1, 2, 3, 4, 5, or 6 . 8. The multi-display device according to claim 1 , wherein a plurality of sub-image display bodies are provided on the main image display body. A pair of sub-image display bodies having a main image display portion and a main frame portion of the main image display body, each having a size that is substantially divided into two, and a pair of plate-like sub image display bodies having the sub-frame portions are arranged on the left and right sides And the hinge mechanism is configured so that the sub-image display portions of both sub-image display bodies face the main-image display portion of the main image display body when the pair of sub-image display bodies are closed. The multi-display device according to claim 1, 2, 3, 4, 5, 6, 7 or 8 . A pair of plate-like sub-image display bodies having a sub-image display section and a sub-frame section that are approximately the same size as the main image display section and main frame section of the main image display body are arranged on the left and right sides of the main image display body, respectively. Provided, when the pair of sub image display bodies are closed, the sub image display section of one sub image display body faces the main image display section of the main image display body, and the sub image display section of the other sub image display body 10. The multi-display device according to claim 1 , wherein the hinge mechanism is configured so as to face a back surface of one of the sub-image display bodies. .

Images